Machine for uncasing bottles



Feb. '17, 1953 H. T. GRlswoLD 2,628,732

MACHINE FOR UNCASING BOTTLES AND JARS Filed July 16, 1949 9 Sheets-Sheet 2 H. IZGKlwoLl) www' Feb. 17, 1953 H. T. GRlswoLD 2,628,732

MACHINE FOR UNCASING BOTTLES AND JARS Filed July 16. 1949 9 Sheets-Sheet 5 @M Waff/7V Feb. 17, 1953 H. T. GR|swo| D 2,628,732

MACHINE FOR UNCASING BOTTLES AND JARS Filed July 16, 1949 9 Sheets-Sheet 4 Feb. 17, 1953 Filed July 16. 1949 H. T. GRISWOLD ,li i ma i l l I sa Suma/wim Feb. 17, 1953 H. T. GRlswoLD 2,623,732

MACHINE FOR UNCASINGk BOTTLES AND JARS n Filed July 16, 1949 9 Sheets-Sheet 6 www Feb. 17, 1953 H. T. GRlswoLD MACHINE FOR UNCASING BOTTLES AND JARS 9 Sheets-Sheet 7 Filed July 16. 1949 u n -P Feb. 17, 1953 H. T. GRlswoLD MACHINE FOR UNCASING BOTTLES AND JARS 9 Sheets-Sheet 8 Filed July 16, 1949 3mm. 19 HIIGRJSWQLD Feb. 17, 1953 H. T. GRlswoLD 2,628,732

MACHINE FOR UNCASING BOTTLES AND JARS Filed July 16, 1949 9 Sheets-Sheet 9 b CL 1&7 i 95 PUS HER MOTOR vAcuuM vALvE www Patentedl Feb. 17, 1953 MACHINE FOR UNcAsING BOTTLES AND JARS Hugh T. Griswold, San Francisco, Calif., assignor to Owens-Illinois Glass Company, a corporation of Ohio Application July 16,1949, Serial No. 105,165

19 Claims.

My invention relates to mechanism for uncasing or removing bottles, jars, or other articles from the cases or cartons in which the articles are packed for shipping or storage.

The invention provides mechanism for all: tomatically lifting from a carton, the bottles or jars packed therein, while the latter are in an inverted position and thereafter reinvertingfand discharging the articles in an upright position.

' yIt is customary to pack bottles and jars, as they come from the annealing leer, in cartons made of foldable sheet material and comprising flaps for closing both the tops and bottoms of the cartons. Thev articles are packed in inverted position inthe carton and the usual method of removing them is to withdraw the cartons upwardly from the articles while the latter are suitably supported in upright position. This method of uncasing or removing the open-mouth ware from the cartons permits dust, dirt, particles of glass, fragments of the carton material, and any other foreign matter which finds its way into the cartons, to fall into ware and remain there until removed by the usual washing mechanism. As a result, the discharge pipes of the washing machines are continually clogged with such materials in the water washed from the hollow ware. Further, the Washing process cannot be relied on to remove all such foreign materials. The present invention provides means for overcoming these objections as the withdrawal of the openmouth ware from vthe cartons while inverted,

prevents the entrance or retention of such for-- eign matter within the ware.

M yinvention in its preferred form comprises horizontal conveying means for transporting cartons, each packed with open-mouth ware, for example, glass jars, and bringing the cartons in carriage toV swing about a horizontal axis for.

inverting and reinverting the platen. The carriage is mounted for up-and-down movement and when lowered, brings the suction cups into contact with the bottom ends of the inverted jars. Suction is then applied to attach the jars to the platen and the platen carriage is lifted to withdraw the jars from the carton. Thereafter the platen is inverted to swing said jars to an 'upright position. A pusher bar is then advanced horizontally over the platen, thereby pushing the jars olf the platen onto a platform or etherv receiving means. Y

f-The mechanism is power operated and in the form herein illustrated, air-operated piston motors are provided for lifting and lowering thev platen carriage, for inverting and uprighting the platen, and for operating the pusher bar. Valves for controlling the air motors are under the control ofV electromagnets, the circuits of which include switches actuated automatically to effect the t synchronized operation of the variousmotors and also controlling the application of suction to the vacuum cups. My invention further provides a' novel form of stop mechanism for arresting the cartons at the uncasing station.

' The precise nature of the invention and various features of novelty will be more fully understood from the following detailed description taken in connection with the accompaning drawings.

Referring to the drawings:

Fig. l is an elevational view of the machine, parts being broken away and parts shown in section.

Fig. 2 is a similar View looking in a direction at'right angles to that of Fig. 1 and shows the suction platen lowered.

Fig. 3 is a plan view of the machine.

' Fig. 4 is a view similar to a portion of Fig. 2, but on a larger scale and showing the platen lifted and inverted to bring the jars to upright position, and the pusher bar pushing the jars oiy the platen. l

l Fig.v5 is a part section elevational view on a comparatively large scale showing the platen and suction cups in an intermediate position during the rotation of the platen for uprighting the attached jars, the view also showing various electrical control devices.

Fig. 6 is a perspective view of the switch which controls the rotation of the platen to upright position, and means for actuating the switch.

Fig. 7 is a fragmentary part sectional plan view showing the platen and its rotating mechanism.

Fig. 8 is a fragmentary elevational view showing the platen, pusher bar, platen rotating control valve mechanism, the vacuum control valve mechanism and various switches and their operating cams. Y

Fig. 9 is a fragmentary elevational view show ing the switch which controls the return rotationl of the platen to neutral position and the switch controlling the return movement of the pusher bar.

Fig. 10 is a section at the line lD--l on Fig. 8.'

Fig. 11 is an elevational View showing the carton conveyor and stop mechanism for thecarton.

including stop bar, its actuating air motor, and solenoid actuated valve for the air motor.

Fig. 12 is a fragmentary plan View showing a portion of the supporting structure and guide rails for the pusher bar and switch control devices actuated by the movement of the pusher bar.

Fig. 13 'is a diagrammatic view showing the air motors, their control valves, the vacuum control valve, and the electrical control system.

Referring to Figs. 1 to 4, the operating parts of the machine are supported ona framework including a horizontal rectangular open frame I mounted on legs I6. Spaced above the frame I5 is an upper horizontal open frame comprising side bars or members I1 with vconvergent'. extensions I9 to which are attached cross-bars 20 and 2l. The upper frame bars I1 are supported in part by uprights 22 and in part by vertical rods 23. The frame members 22 are extended upwardly beyond the frame I1 and are connected at their upper ends by a cross beam 24 on which is mounted a piston motor 25.

The motorV 25 is attached at its upper end to a frame member 26 extending upwardly from the cross beam 24. The motor comprises a vertically reciprocating piston 21 (Fig. 13)and piston rod 21 (Fig. 1) connected to a platen carriage 28 in the form of a yoke mounted for up-anddown movement in the machine frame. The motor 25 serves as a lifting motor for bodily lifting and lowering the platen 30 which is mounted thereon to swing about a horizontal axis. The yoke 28 is supported and guided on stationary vertical guide rods 3|, the latter attached by clamping blocks 32 at their upper and lower ends to the stationary framework. The yoke 28 is provided with bearing sleeves 33 slideable on the rods 3I.

The platen 30 (Figs. 1 to 6) comprises a pair of flat rectangular plates 34 and 35 juxtaposed one over the other and sealed together. The plate 34 (Fig. 5) is recessed to provide a vacuum chamber 35 from which air may be exhausted for applying suction to a battery of suction cups 39 mounted on the plate 35the cups being made of rubber or other resilient compressible material. The platen includes a third plate 40 parallel with the plates 34 and 35 and spaced therefrom, the plate 40 being formed with openings 4I into and through which the vacuum cups extend.

The plate 40 is yieldingly mounted for limited movement toward and from the plate 35 for the purpose hereinafter explained. The connections between the plate 40 and the plates 34, 35 include screw bolts 43 on Veach of which is mounted a sleeve 44 or tubular rod, the latter in turn extending through a bushing 45 attached to t-he plate 34. A coil spring 46 surrounding the bushing 45 isheld under compression between the plates 34 and 40. With this construction the plate 40 is yieldingly held inits extended position in which the outer face of the plate is spaced a short distance beyond the mouths of the vacuum cups as shown in Fig. 4.

"When the platen carriage is moved downward to bring the suction cups into engagement with the articles 41, herein. shown as glass jars, the plate 40 is arrested shortly before the carriage has completed its downward movement, by a cradle 418. This cradle, consisting of angle bars, is attached to the frame I5 in position to receive the plate 4I) and arrest it just before the suction cups are brought into sealing contact with the jars- 41. `During @the kvfinal `downward movement of the carriage after the plate 40 is arrested, the suction cups make` sealing contact with the jars, and the plate 40 is caused to bear against the cradle 41EL with a pressure determined by the expansive force of the springs 46. When the suction has been applied for holding the jars and the platen is lifted, the platev 40 :under the expansive force of the springs, bears against the jars and rigidly holds them against any tilting movement. The vacuum or suction line extends fromy vacuum chamber 3B through a pipe 48, a central bore 49 in a shaft 50, a vacuum pipe 5I leading to a vacuum control valve 52 (Fig. 13) and through'the valve to a vacuum pipe 53 extending to a suction pump or other air exhausting means (not shown) The jars 41 which are to be uncased, are packed in cartons 55 (Figs. 1, 2 and 3). The cartons may be of conventional construction, being made of foldable paperboard or the like, and comprising upper side flaps 56 and end aps 51- which, as shown in Figs. l and 3, are folded back tol open position for exposing the jars 41 which are carried upside down in the cells formed by spacing strips 58. The cartons are brought to the uncasing station by conveyor mechanism comprising a flight bar conveyor 59. The conveyor consists of a pair of horizontally spaced endless chains carrying transverse ght bars 60 which engage behind the cartons and drive them forward while supported on a series of rolls 6I journaled in the conveyor frame 62.

Each carton is arrested at the uncasingv station by a stop bar 63 (Figs. 1 and 11). The flight bar conveyor is driven by a motor 65 (Fig. 2) operating through a train of `gearing 66 including a friction clutch 61. The clutch comprises-al pair of friction disks held in frictional driving engagement by a coil spring 68, permitting the conveyor to be arrested when a carton is arrested by the stop bar 63.

When a carton is brought to rest at the uncasing station, the platen 30 is operated to withdraw the jars from the carton, followed by certain other operations to complete the cycle, as hereinafter described. The stopbar B3 is withdrawn downward to release the empty carton and vpermit the flight bar conveyor to resume its travel for bringing the next succeeding carton to the uncasing station'. The means for withdrawing the stop bar 63 includes an air-operated piston motor 1f! (Figs. 1, 11 and 13). .The motor piston rod 1I operates throughan arm 12 attached toa bracket 13 carrying the stop bar 63 topull the latter downward below 'the pathiof the carton when the motor piston moves downward, thereby per-v mitting the conveyor 59 to resume its travel and carry the empty carton forward. The motor 10 is under the control of a valve 15 (Figs. 11 and 13) operated, as hereinafter described, in a manner to hold the stop bar 63 in its lowered position until the empty carton has advanced to a position entirely beyond the stop bar, the latter then being returned by means of a coil spring 16 to its operative position for arresting the next succeeding carton.

When the motor 25 has lowered the carriageZ and platen 30, to bring the suction cups into contact with the jars 41, suction is applied and the carriage is then raised to Withdraw the jarsfrom the carton. When the jars have Vbeen ele-v vated sufficiently to clear the carton, the platen is inverted by rotating it about the axis Yof the shaft 50 and thereby swings the jars to an Iupright position. The.. means for rotating the platen includes a piston motor 11 mounted on the carriage 28. The piston rod 18 of the motor is attached to a vertical rack bar 19 in mesh with a gear wheel 80 keyed to the shaft 50, the latter being xed to the platen 30 and journaledin bearings on the carriage 28. The motor 11 is under the control of a valve 8| (Fig. 13).

The motor 25 for lifting the platen is under the control of a spool-type control valve 82 (Figs. 1 and 13) of conventional construction. The valve piston 83 is actuated by air pressure supplied through a pressure pipe 84 and branch pipes 85 and 86 which extend from the pipe 84 to poppet valves 81 and 88 respectively. The valve 81 is actuated by a solenoid 90 which when energized, lifts the valve disk 9| and admits air under pressure to the lefthand end of the main valve 82 for moving the valve piston 83 to the right. With the parts in the position shown, air under pressure is supplied through the valve 82 and a pipe 94 leading to the lower end of the lifting motor cylinder 25 so that the motor piston has been moved thereby to its upper position. When the valve piston 83 is moved to the right as above described, air pressure is supplied through the valve and a pipe 95 to the upper end of the motor cylinder for lowering the platen carriage 28 and platen 30.Y

After the platen has operated as above described, to withdraw the jars from a carton and swing them to upright position, the vacuum is dissipated (as hereinafter described) thereby releasing the jars from the grip of the suction cups so that the plate 40 is moved upward by the springs 46 and lifts the jars off the suction cups, and the jars are then moved off the platen onto a, platform 90 (Figs. 3 and '7) or other receiver. Means for transferring the jars from the platen comprises a pusher bar which is attached to the forward ends of a pair of parallel horizontal rods |02 mounted for lengthwise reciprocating movement in a frame |02'r1 bolted to the frame members 20 yand 2| (Figs. 3 and 8). The rods |02 are supported adjacent their forward ends on rolls |02b journalled in brackets at the forward end of the frame |023. Collars |02c (Figs. 8 and l2) are yattached'to the rods |02 near the rear ends thereof and carry rollers |02c1 which run on rails |02e forming part of theframe |029'. The pusher bar is reciprocated by ahorizontally disposed piston motor IOI mounted in a frame |02a and extending lengthwise thereof. The motor piston rod is connected directly to the pusher bar |00. Pads or strips |03 of rubber or similar cushioning material are mounted on the pusher bar. The pusher motor IOI is under the control of a valve |05 which may be of the same construction as the valves 8| and 82.

The air motors and valve mechanism are operated automatically and in synchronism under the control of the system, of electrical switches and contact devices which will now be described, followed by a description of a cycle of operations. Y

Referring to Fig. 13, the various electromagnets are operated by current supplied through the mains a and b. The electromagnet 90 which when energized, operates to initiate the down stroke of the motor 25 for lowering the platen carriage, has switches |06 and |01 in circuit therewith. The switch |06 (Fig. 5) has a stationary mounting on the frame member 22 and its operating arm |08 is actuated by a detent rod |09-mounted on the platen The switch -I0|-isy 6, closed by the rod |09 as the empty platen swings to its horizontal inverted position with the suction cups projected downward and the carriage 28 in its uppermost position. Such inverting movement brings the rod |09 to the broken line position |09. When the platen is being moved bodily upward carrying with it the jars 41, a stationary cam I I0 in the path of the rod |09, moves the latter to the left so that it does not contact the switch arm |08 during such upward movement. When the platen is swung about the axis of the shaft 50, a cam III on the platen car` riage 28 engages the rod |09 and shifts it to the right into position for closing the switch |06 as above described.

The switch |01 (Figs. 1, 11 and 13) has an arm I |11a (Fig. 1) projecting upward into the path of the cartons, and is moved to close the switch as a carton is nearing the stop bar |53.`

A switch I I2 (Fig. 4) controls the up stroke o1 the motor 25. This switch has a `stationary mounting on the frame member 22 and is actuated by a stop rod I|3 attached by a bracket |I4 to the platen carriage 28. The switch 2 is operated during the n-al downward movement of the carriage. Referring to Fig. 13, the switch- I I2 when closed, makes a circuitV for the solenoid I I5 so that the poppet valve 89 is opened and the valve spool 83 is moved to the left to the position shown, thereby supplying air pressureto the pipe 84 for lifting the motor piston.

A switch IIB (Figs. 4, 5, and 13) mounted on the frame member 22 controls the vacuumizing of the platen. The switch is closed by a cam I|1v on the carriage 28 in position to actuate the switch arm I I9 when the platen has nearly reached its lowered position with the suction cups in contact with the jars 41. Closing of the switch |I5 energizes the solenoid |20 of a poppet valve |20a thereby supplying air pressure to the valve 52 and moving its valve spool to the right, thus connecting the suction pipe 53 to the pipe 5| leading to the vacuum chamber 36 (Fig. 5).

A switch I2I (Fig. 4) mounted on the frame member 22 is closed by a contact screw |22 as the carriage reaches its limit of upward movement, and thereby completes a circuit for a solenoid |23 (Fig. 13) which then closes a time delay switch |24 in circuit with a valve solenoid |25. When the latter is energized it moves the valve piston ofthe valve 15 against the expansive force of a coilspring |26 and thereby opens the air pressure line 84 to the piston motor 10 whichY then operates to lower the stop bar 53.

When the stop bar 83 is lowered, the carto 55 from which the jars have been removed, commences its forward movement from theuncasing position and immediately actuates a switch |21 (Figs. 11 and 13). The closing of the switch is effected by the carton nap 56 which engages the switch-operating arm |20, thereby holding the switch closed until the empty carton has passed beyond the stop bar 83. As the switch |21 is in parallel with the switch |24, it maintains the circuit for the solenoid |25 independently of the switch |24, thus preventing the air motor 10 from lifting-the stop bar while the carton is passing over it.

The platen, after it has been lifted vwith its load of jars, is rotated to upright position under the control of a switch |30 (Figs. 4, 6, 1, and 13) mounted on the machine frame. The switch is actuated by means of a rock arm I3I which pro-v jects into a vertical guide slot |32 in an angle barl |33 mounted on-the carriage for up-and-down= movementtherewith. Thaarm L3 |VV is tracked .to close.A the; switch.,byffafpivoted cam .|34 .heldin position. .byf-:a spring |.3.5..(Fig. 13),. Whenthe carriage ymoves downward the arm- |3| passes the 1lefthand.sideiof the -memher |34 without closing the-switch |30. When "the `carriage is completing :its .upwardfmovement the switch.A arm I3 :sis guided to... the righthand side of .thecam 34;and. thereby 'isxrocked in a .direction to close thee-switch 1 |30. vThis makes.l a: circuit forav sole- |44 aand. supplies air pressure to vmove the spool,VL

offthe valve ,52' to the; position shown, thereby. admittingair .througha Iport-|45 .and thepipe 5| for dissipatng .the vacuum.

,-.The-return rotation of theplaten toits neutral, downwardly ..-f;acing; positionA lpis controlled by a switch |46 (Figs. 8,119,1and v13) This switch must remain; open during theforward movement ofthepusherbar and.is-.moved to vclosed position during the'returnmovement of theypusher bar. V' The-.switch is-.actuated b y'a detentpn |41 which iswmounted-inoneof' the brackets |02c (Figs. 8 to. 10) andis; shifted into inoperative position .bya vstationary cam `|49 .during the forward :stroke of the `pusher bar. The pin |41 isiheld in .its shifted position by a spring detent |48. `After the pin |41 passes the switch` |46 it.isf.shiftedtofoperativej,position by a cam |50 so that'during the return movement of the-pusher .barit :closes the switch |46. Closing of the switch IAG--energizesthe magnet coil of valve |5.|,-openssaid valve, and .movesthe valve spool |.3B'to :therightfsothat air pressure is supplied throughapipe l39ato the lower end of the motor 11.

The .return movement of thefpusher-bar :to itsretractedgpositionr.(Fig.,8). is under the contro1o f.fa;switch |52 (Figs. `3, 8, 9, and 13). As the pusher bar .isf completing its forward. movement for ejectingjxthe .Warefromtheplatem a switchoperating ,member |53 on one ofthe rods |02, actuates -the switch arm |54, and thereby closes theswitch |52. Thiscompletes the circuit .for a; solenoid |55 yand 4opens the valve |56 thereby moving the valvespool |51 to the rightso that air -pressureis suppliedto the forward end of the motor A|0|. -The pusher bar isthus retracted immediately afterit completes its forward movement.

.The .forward stroke of the pusher bar is under the control-of a switch `|50 (Figs. 3,4, and 13).4

The `switch |60 is closed byacam |6|vmounted on the; platen in -position to .engage the switch arm |62 and close the switch as vthe platen completes-its rotation for uprighting the ware. yThe closing vof the switch |60 completes a circuit throughy the` coilk |53 of 1a..single impulse 'relay which-'operates to momentarily close -a switch |64. This completes the circuit Afor the solenoid |65 :of the poppetfvalve .|86 whichis thus lifted and-admts..air pressure to .the valve |05,so that.

' rotating. motor 11.

the' valve `spool .l 51:.is.moved.to,.the .leftzand .suppIiesairthrQugh the-pipe |161-tothe motor .|0I., causing .theforwardstroke ofthe pusher bar. This rforward :movement of thepusher bar may I commencer-before the v.platen has quite reached its horizontaLposition, thereby saving time which would otherwise be required for the pusher bar to-.cover the distance required for clearance between'the ,wareandfthe `pusher bar. An interlocking switch. :|68 (Figs. 4 .and'13) is mounted with'its operatingarmfin the path ,of the pusher bar |00 rin. position tobe closed as the pusher bar completes, its retracted movement. vThe switch |68 is-in .circuit with .thesolenoid |36 so that saidA circuit cannot becompleted vfor causing the .platen to rotate.and uprightthe ware .except whilethepusherbar isdn. its fully retracted.v Dosition.

:Operation Thesequenceof operationslfor.,uncasing.a lcarton of jars .will .be described` as follows,v byv refer- .the right. .This supplies air pressure vto the top of the.- motor .25 andmoves Vits pistondownward and thus lowers .the platen, bringing the suction cupsinto engagement .with the jars.

During the nal downward movement ofthe platen, the vacuum valve switch ||6 is closed so that Athe solenoid |20 operates its poppet valvev and supplies-.air pressure to the vacuum valve 52 for moving the valve spool to the right. This opens the suction ,pipev 53to the pipe .5| ,leading to the Vplaten-and vacuumizesv the platen so that the jars .are grippedby the suction cups. During the nal downward movement of the platen .carriage, the switch I2, controling the up movement ofy the motor 25-isalso closed, thereby making a circuit for` the poppet valve solenoid ||5 so .that its valvev is lifted, the control valve spool 83. is returned `tothe lift-andair pressure suppliedto the lower end ofthe motor 25. Thiscauses the motorto lift thep1aten.carriage 28 so thatthe.

jars are withdrawn .upwardly from the carton.

Asthe carriage. moves upward, the switch |30 is closed, making a circuitforthe coil |36, thereby causing thepoppet valve to be lifted land the valve spool |38 to be moved to the left so that air.

pressure is supplied to the upper -end of the platen Thereupon themotor piston ismoved downward and through the rack 19.and pinion 80, rotates the platen and jars through thereby. uprighting the jars.

As the platen is completing such rotation, it closes the. switch |40 which controls :the vacuum release andthe switch |60 which controls the forward movement of the pusher bar. switch |40 when-closed makes azcircuit for .the solenoidV |43, lifts the poppet valve and supplies air pressure; to the vacuum valve 52, moving the valve. vspool to the left and thus closing the vacuum pipe 53- and opening .the pipe 5| to an air port .I:4,5,.'thusrdissipating the vacuum and `releasing the suction. cups. .permits the-,springfd 6.

The

to expand and lift the plate 40 a short distance so that the jars are separated from the suction cups and supported entirely by the plate All. The switch |60 when closed makes a circuit for the coil |63 which operates through the time-delay switch |64 to make a circuit for the coil |65 so that the poppet valve is lifted and the valve spool I 51 shifted to the left. This supplies air pressure through pipe |61 to the pusher bar motor and moves the pusher bar forward over the platen for transferring the jars to the platform 96 (Fig. 3). As the pusher bar nears its forward position, it closes the switch |52, thereby energizing coil I 55, lifting its poppet valve and returning spool valve |51 to the right so that air pressure is supplied to the forward end of the motor and retracts the pusher bar.

As the pusher bar nears its retracted position, it closes the switch |46 which controls the up movement of the platen rotating motor 11. That is, closing of the switch |46 causes the valve spool |38 to be moved to the right so that the piston of I 25 closes the switches |06 and |2I. The closing of switch 2| makes a circuit for solenoid |23 so that the latter operates to close the time-delay 'switch |24 and thereby makes a circuit vfor the' solenoid |25 and moves the valve piston v*ofl valve 15 to the left. 'I'his supplies air pressure to the "motor 1U s'othat it operates to lower the stop bar 63 (Fig. 1l) 'and permits the ight bar conveyor vto advance the empty carton away from the uncasing station. As soon as the carton starts forward, its flap 56 closes the switch |21 so that air pressure is maintained to the motor and prevents the stop bar from being lifted while the carton is passing thereover. This completes the cycle. A push button switch |10, in parallel with the switch |21, may be operated manually to lower the stop bar 63.

Modifications may be resorted to within the spirit and scope of the invention as dened in the appended claims.

I claim:

1. Apparatus for uncasing articles from cartons, comprising a battery of article-gripping devices, a carrier on which the gripping devices are mounted, a horizontal conveyor op which the cartons are supported, said conveyor being mounted to travel horizontally and bring the cartons singly and in succession to an uncasing station, means positioned to arrest each carton at the uncasing station, automatic means for driving the conveyor intermittently and thereby advancing a succession of the cartons, means cooperating with the cartons to arrest the conveyor as each carton is arrested at the uncasing station, said carrier being mounted for up-and-down movement overeach carton at said station, means for lowering the"` carrier and causing said gripping i devices to grip the upper ends of the articles in the carton, means for then lifting the carrier and withdrawing the articles from the carton while suspended from the gripping devices, means for then rotating the carrier about a horizontal y axis and thereby inverting said articles .by the force applied thereto through the gripping devices and with the articles unsupported except at said ends, and means for releasing the articles from the gripping devices.

2. The combination with the apparatus deiined -10 in claim 1 of a pusher device, and automatic means for moving said pusher device transversely over said carrier and thereby removing the articles therefrom.

3. The apparatus defined in claim 1, the means for driving the conveyor comprising a motor and gearing including a friction clutch between the motor and the conveyor, the means for arresting the cartons comprising a stop in the path of the cartons by which each carton is arrested at the uncasing station, flights on the conveyor in position to be arrested by a carton at the uncasing station and thereby arrest said conveyor, and automatic means for withdrawing said stop after the articles have been withdrawn from the carton.

4. Apparatus for uncasing articles from cartons comprising a horizontally traveling conveyor by which the cartons are conveyed horizontally to and beyond an uncasing station, a continuously running motor for driving the conveyor, means including a friction clutch forming a driving connection between the motor and the conveyor, a stop in the path of the cartons in position to arrest each of the cartons in succession at the uncasing station, a battery of gripping devices, .a carrier on which said devi-ces are mounted, a carriage on which the said carrier is mounted 'for rotation about an axis, said carriage being vmounted for up-and-down movement over the carton atsaid station, a motor operatively-.con-

. nected to the carriage for moving the latter'iup l and down, a carrier motor mounted on the carriage and geared to the said carrier for-effecting said rotation, means for causing said gripping devices to grip they articles in the carton at said station when the carriage is lowered, meansfor `causing said carrier motor to rotate the carrier when the carriage has been moved upward and the articles withdrawn from the carton, and thereby inverting the said articles, and automatic means for discharging the inverted articles.

5. Uncasing apparatus comprising a horizontally disposed horizontally travelling -conveyor by which cases 0r cartons with articles packed therein are brought in succession to an uncasing station, a platen mounted over the path of the cartons, suction cups carried by the platen, means for lowering the platen and bringing the suction cups into engagement with the articles in a carton at said station, and thereafter raising the platen and withdrawing the articles from the carton, means for rotating the platen about a horizontal axis with the articles carried thereby and thereby uprighting said articles, said platen including a supporting plate, means for moving vthe supporting plate relative to the suction cups into a position to separate the cups from thev uprighted articles and hold the latter supported. in upright position on said plate, a pusher bar mounted for horizontal reciprocation in a direction transverse to the direction of movement of the said conveyor, and automatic means for adl vancing said pusher bar over the platen with the uprighted articlesI thereon and thereby removing said articles from the platen.

6. Uncasing apparatus for removing from a carton articles packed therein in inverted positlon and uprighting the articles, said apparatus comprising a carriage mounted forup-and-down movement at fan uncasing station, a platen n mounted on the carriage 'for oscillating movement about a horizontal axis i'or inverting and re-inverting the platen, a battery of suction cups mounted on the platen, saidplaten including'A a supporting plate for the articles, a pusher device .movable transversely over'ithe platen', axvacuum control' `valve, means controlled thereby. forperiodically' applying suotiontothesuctionscupsgfiuid operated motors including a lifting'motorgeared to the carriag,ra platen' inverting'motor geared v t the platen, a pusher motor geared tothe pusher device, valves individual to said'motors and controlling their operations, electro-responsive "devices for actuating the valves, switchesA in circuit Y with said electro-responsive devices and means for' operatingsaid switches automati-cally 1n a predetermined order and time relation by which f thefollowing sequence of operations is effected,

viz.'lowering theA carriage and bringing the suction' cups into engagement with the zarticles `in the carton;a'ctuatingithevacuum valve and applyinggsucti'onby which the` suction. cups are attachedlto' saidarticles, lifting the carriage and Y thereby withdrawingthe inverted;articles from.

the carton, rotating'the platen from a1 down- Wardly facing position'and thereby uprighting the articles,` dissipating the vacuum and thereby releasingithe suction'cups, moving said supporting platevupwardlyand thereby lifting the articlesoff'thesuction cups, actuating :said pusher device and therebyremovingthe articles from the platen,

'Y and rotating the'p-laten back to its saiddownf Wardlylfacing position.

7`;" In combination vwith the apparatus'deiinedY irr-'cla'i'rn 6 automatic means-fior bringing icartons in succession tothe uncasing-station, means'for arrestingv thecart'ons at'said" stationgzand automatic means operated'bythemovement 'of vacartoni into uncasing'position4V at said station' to 'initiatethe'said vseries of uncasing' operations.

82l Unoasing apparatus for removing from a carbony articles packedtherein in inverted position and uprightingthe articles, said apparatus comprising a carriage mounted for ups-and-down` movement at a uncasing station,.a platen mounted on ythe carriage for oscillating movement about a;hori`zontal axis for inverting and re-inverting the/platen,- a' battery oisuction cups mounted on* the f' platen', a' pusher "device movable transverselyover theplaten, a vacuum control valve,A 'mea-ns controlled thereby for periodicalli7 applyingf'suctionto the vacuum cups,.iluid operated motors-including aA lifting motor gearedto the carriageaplaten invertingmotor geared to the platen,- a pusher motorfgeared .to the pusher Vde-f Vice, valves individual to said Vmotors and co-ntrolling their operations, electro-.responsive devices forxactuating the;valves,3switches in. circuit with said electro-responsive,devices includinga switch mounted' in'fthe 4path or movementof the carton` to'fthe'uncasingstation and actuated therebyto energizethe lifting 4motor and lower the carriageandbring ythe suction cups into engagement Withthe articles Vin the carton, a switch mounted inthe path ofy the platen and actuated thereby during-the iinal downward movement of the carriageandfplaten,to-operate the vacuum valve and applysuction bywhich thev suction cups are. attachedv to the said articles, a secondi. switch mounted in the pathof the platen and actuated therebyduring the final downward movement of the carriage and .platen to energizeY the lifting motor and lift the carriage and therebywithdraw the' inverted articles. from"'the carton, a.` switch mounted in thepath ofthe carriage and actuated thereby during thefinal upward Vmovement of the carriage to energize'the platen inverting `motor and rotate the platen from-a downwardly facing position" to an upwardly facing position and thereby"uprightIthefarticles, a switch mounted 12 the path v of l:the platen; and: actuated "th'rebyas the platen completes-its'rot'ation izo-operate the vacuumI control valve and ldissipate the vacuum and' thereby release the suction cups,r alsecond switch'mounted in the path ofthe platen andactuated thereby' as the platenl completes its rotation to energize the pusher motor and actuate-tlie pusher device and --thereby remove th'earticles from the platen; aswitc'h in the path of 'thepusher device-and actuatedfthereby as the pusher de`- vice 'nears its' iinalforwardposition to'energize the'pusher motoran'd return the pusherdeviceto its original-position, ai'switch mounted inthe path of the pusher deviceand 'actuatedthereby dr- 'ing uthe --lnal movement 'Ito the original position tov energize the platen inverting 'motor and'thereby return the platen to its originalpos'itio'm Si.'v YIn combination witlfrfthe?,apparatus dened in claim v8, automatici-means;.forf.bringing cartons in succession'fto" thetunicasing.'station,` means for arresting the' cartons at said' station, ,c andi automatic meansoperatedby the movementof'a cartoni into uncasing :position at 'said 'stationftoiniti'ate the. said series'iof unisa-sing,operations.y`

10. Apparatus forguncasihg' jars orfothen openmouth containers' packed in: inverteds'position withint a carton, comprising` means .'for "supporting the carton at 'anV un'casingrstationl larplaten mounted for' up-'and-down.movementroveif the carton 'at' suchstation; arbatteryfof suctioncups mounted on said platen .with the "opent mouths` of thecups facingdownward andflyinginfsubstantially-.the '-same'fhorizonta-l. plane; saide cupsfbelng brought 'into-engagement with'y the bottomends v-o the lcontainers whenv the7 platen: iswlowered,

means for applying suction' to said*` cups' and thereby'attachingfthe articles tto .the:c1ipS, c means for lifting theY platen bodily and thereby--with drawin'gthescontainersfromfithefcarton, ,means for-.then rotating` thesplatena about naA horizontal axis" and thereby uprighting`A the: containers-,said platen 4 comprising, a., face plate havingl openings through which the suction cupsextendaidiace plate havingy its `face in aplane paralleLwith said rst mentioned. plane, means for holding.' said face plate in a retracted position While'the'suction cups are being broughtintoengagement with the said containers, spring means for applying an outward pressure to the face plate and thereby holding it with a yielding pressure against 'the Aend faces of the containers While 'the containers are held by the suctioncups and being rotated'to upright position and thereby" preventing tilting movement of the containers relative'to said'plate duringtheerotation oftnepiaten.

ll'.' Apparatus 'for uncasingj open-'mouth ware packedin inverted position within. cartons, said apparatus comprising a' horizontallyV travelling conveyorextending through-anden opposite sides of Van uncasing'station and by which a succession o'f'cartons placed on the-conveyor lare brought V 'operativelyconnectedyto the-*carriage for lifting "it, 1an air operated piston motor mounted on the into engagement with the bottom ends of the said ware by the lowering of the carriage and platen, and withdrawn from the carton by the upward movement of the carriage and uprighted by the rotation of the platen about its said axis, the ware being supported solely at said bottom ends during the uprighting movement, a pusher bar located at one side of the platen, a motor connected to the pusher bar and operative to advance the pusher bar horizontally over the platen, thereby removing the uprighted ware from the platen, automatic means brought into activity by the positioning of a carton at said station for causing the operation of said motors and eiecting said movements of the carriage and platen, automatic means for withdrawing said stop after the ware has been withdrawn from a carton.

12. Apparatus for uncasing articles packed in cartons, said apparatus comprising a horizontally travelling conveyor by which the cartons are are brought in succession to an uncasing station and carried through and beyond said station, a continuously running motor, means including a friction clutch forming a driving connection between the motor and the conveyor, a stop bar in the path of the cartons in position to arrest each carton at said station and thereby stop the conveyor while the motor continues to run, a carriage, a platen mounted on the carriage, suction devices carried by the platen, said carriage with the platen thereon being mounted for up-anddown movement over the carton at said station, the platen being in position to engage the suction devices with the said articles when the carriage is lowered, power mechanism for lifting and lowering the carriage and for withdrawing the stop bar out of the path of the cartons, automatic control devices for controlling the operation of said power mechanism and including means brought into activity by the movement of the cartons to said uncasing position to effect the operation of said power mechanism, and automaticV means for withdrawing the stop bar and thereby causing the empty carton to be advanced by the travelling conveyor following the uncasing operation.

13. Apparatus for uncasing open-mouth containers packed in inverted position in cartons, said apparatus comprising means for supporting a carton at an uncasing station, a carriage mounted for up-and-down movement at said station, a platen pivotally mounted on the carriage for rotation about a horizontal axis with the platen positioned over a carton at said station, a battery of suction cups carried on the platen and facing downwardly with the outer ends of the cups arranged in a horizontal plane, means for lowering and lifting the platen on the carriage and bringing the suction cups into engagement with the upwardly facing bottom ends of the containers and lifting the containers out of the carton, automatic means for applying suction to the cups when the latter are in contact with the containers and thereby holding containers, means for rotating the platen about its axis when the articles have been lifted out of the container and thereby swinging the articles upwardly to an upright position, automatic means for dissipating the suction and releasing the articles when in said upright position, said platen including a supporting plate having openings through which the suction cups extend,

means for moving said plate upwardly when 'the containers are in said upright .position and thereby lifting them away from the suction cups, a pusher device positioned at one side of said plate, and means for moving the pusher device laterally over the plate and thereby removing the containers from said plate.

14. The apparatus defined in claim 13, the said means for moving the supporting plate upwardly including springs holding the said plate against the bottom ends of the containers during said swinging movement of the platen and thereby preventing tilting of the containers relative to said plate and suction cups during the uprighting movement of the containers. i

-l5. Apparatus for uncasing vopen-mouth containers placed in inverted position within acarton, comprising a support for the carton, a platen mounted over said support, .a battery of suction cups attached to the platen, said cups having open mouths facing downwardly, means for moving the platen downwardly and bringing said cups into engagement with the upwardly facing bottom ends of the containers, means for then applying suction to said cups and thereby causing them to grip the containers, means for rotating the platen about a horizontal axis and swinging the containers to an upright position while held by the suction cups and supported solely at said bottom ends, said platen including means to hold the containers against tilting movement relative to the suction cups during said uprighting movement, said holding means comprising a holding surface positioned to bear against the peripheral portions of the container ends and during the uprighting movement of the containers.

16. The combination deiined in claim 15, said holding means comprising a plate having openings through which the suction cups extend and spring means applying a yielding outward pressure of said plate against said bottom ends during said inverting movement.

17. Apparatus for uncasing open-mouth containers packed in inverted position within a carton, said apparatus comprising a support for the carton, a platen mounted over said support for rotation about a horizontal axis, a battery of open-mouth suction cups consisting of rubberlike material attached to the platen, with said cups facing downwardly, means for bringing said cups into engagement with the upwardly facing bottom ends of the containers, means for applying suction to the cup's and thereby causing them to grip the containers, means for moving the platen upward relatively to the carton and thereby withdrawing the containers from the carton while suspended from the suction cups, means for then rotating the platen about its axis and thereby uprighting the containers, the platen including a supporting device for engaging the containers and holding them against tilting movement relative to the platen during said rotation of the platen, and spring means to apply and outward pressure to the containers during said rotation of the platen.

18. Apparatus for uncasing open-mouth containers packed in inverted position within a carton, said apparatus comprising a support for the carton, a platen mounted over said support for rotation about a horizontal axis, a battery of open-mouth suction cups consisting of rubberlike material attached to the platen, with said cups facing downwardly, means for bringing said cups into engagement with the upwardly facing "bottom-ends 7Mathe fcontainers, means-for applying suctionto thefcups andtherebyjcausingthem to..xgripi1the containers, .meansiffor'moving the platen upwardrelatively to the carton andtherebypwithdrawing the containersv from the carton vWhile-Suspended vfrom the suction cups, means for then rotating the platenaboutiits axis and thereby ,uprighting the containers, saidv platen includingasupporting plate, and means for automatically moving` said supporting plate upwardly relative:t0' the containers'after said. uprightingj movement into position to liftA the containers Aoff the-'suction cups and support the containers.

19. The apparatus dened'inclaim 1.8 and in combina-tion` therewith, l a pusher device mounted at-one-1side-- ofv thefvplaten, and means for auto- 'HUGH T. GRISWOLD.

REFERENCES CITED The following references are of record inthe le of this patent:

UNITED STATES PATENTS Number Name Date.

1,016,062 Bettendorf Jan. 30,. 1912 1,087,909 Culley Feb. 17, 1914 1,904,720 Douglass. Apr. v18, 19,33 2,119,725 Stecher. June '7,1938 

